Lateral interactions and non-equilibrium in surface kinetics

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Abstract

Work modelling reactions between surface species frequently use Langmuir kinetics, assuming that the layer is in internal equilibrium, and that the chemical potential of adsorbates corresponds to that of an ideal gas. Coverage dependences of reacting species and of site blocking are usually treated with simple power law coverage dependences (linear in the simplest case), neglecting that lateral interactions are strong in adsorbate and co-adsorbate layers which may influence kinetics considerably. My research group has in the past investigated many co-adsorbate systems and simple reactions in them. We have collected a number of examples where strong deviations from simple coverage dependences exist, in blocking, promoting, and selecting reactions. Interactions can range from those between next neighbors to larger distances, and can be quite complex. In addition, internal equilibrium in the layer as well as equilibrium distributions over product degrees of freedom can be violated. The latter effect leads to non-equipartition of energy over molecular degrees of freedom (for products) or non-equal response to those of reactants. While such behavior can usually be described by dynamic or kinetic models, the deeper reasons require detailed theoretical analysis. Here, a selection of such cases is reviewed to exemplify these points.

Original languageEnglish
Pages (from-to)187-195
Number of pages9
JournalSurface Science
Volume650
DOIs
StatePublished - 1 Aug 2016

Keywords

  • Adsorbate lateral interactions
  • Kinetic modelling
  • Non-equilibrium in adsorbate layers
  • Non-equipartitioning of energy over degrees of freedom in product molecules
  • Surface kinetics

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